Features

High Density, High Performance Electrically Erasable Complex Programmable Logic
Device

64 Macrocells
5 Product Terms per Macrocell, Expandable up to 40 per Macrocell
44, 68, 84, 100 pins
7 ns Maximum Pin-to-Pin Delay
Registered Operation Up To 100 MHz
Enhanced Routing Resources

In-System Programmability (ISP) via JTAG

Flexible Logic Macrocell

D/T/Latch Configurable Flip Flops
Global and Individual Register Control Signals
Global and Individual Output Enable
Programmable Output Slew Rate
Programmable Output Open Collector Option
Maximum Logic utilization by burying a register within a COM output

Advanced Power Management Features

 Automatic 100

µ
µ
µ
µ

A Stand-By for "Z" Version

Pin-Controlled 4 mA Stand-By Mode (Typical)
Programmable Pin-Keeper Inputs and I/Os
Reduced-Power Feature Per Macrocell

Available in Commercial and Industrial Temperature Ranges

Available in 44-, 68-, and 84-pin PLCC; 44- and 100-pin TQFP; and 100-pin PQFP

Advanced EE Technology

100% Tested
Completely Reprogrammable
100 Program/Erase Cycles
20 Year Data Retention
2000V ESD Protection
200 mA Latch-Up Immunity

JTAG Boundary-Scan Testing to IEEE Std. 1149.1-1990 and 1149.1a-1993 Supported

PCI-compliant

3.3 or 5.0V I/O pins

Security Fuse Feature

Enhanced Features

Improved Connectivity (Additional Feedback Routing, Alternate Input Routing)

Output Enable Product Terms

D - Latch Mode

Combinatorial Output with Registered Feedback within any Macrocell

Three Global Clock Pins

ITD (Input Transition Detection) Circuits on Global Clocks, Inputs and I/O

Fast Registered Input from Product Term

Programmable "Pin-Keeper" Option

Power-Up Reset Option

Pull-Up Option on JTAG Pins TMS and TDI

Advanced Power Management Features

Edge Controlled Power Down "L"
Individual Macrocell Power Option
Disable ITD on Global Clocks, Inputs and I/O

Description

The ATF1504AS is a high performance, high density Complex Programmable Logic
Device (CPLD) which utilizes Atmel's proven electrically erasable memory technology.
With 64 logic macrocells and up to 68 inputs, it easily integrates logic from several

High-
Performance
EE CPLD

ATF1504AS
ATF1504ASZ

Rev. 0950D07/98

(continued)

ATF1504AS(Z)

44-Lead PLCC

Top View

TDI/I/O

I/O

GND

PD1/I/O

I/O

I/O/TMS

I/O

VCC

I/O

I/O/TDO

I/O

VCC

I/O

I/O/TCK

I/O

GND

I/O

GND

VCC

I/O

PD2/I/O

I/O

VCC

GCK2/OE2/I

GCLR/I

OE1/I

GCK1/I

GND

I/O/GCLK3

I/O

68-Lead PLCC

Top View

I/O

VCC

I/O/TD1

I/O

GND

I/O/PD1

I/O

I/O/TMS

I/O

VCC

I/O

GND

I/O

GND

I/O/TDO

I/O

VCC

I/O

I/O/TCK

I/O

GND

I/O

VCC

I/O

GND

VCC

I/O

I/O/PD2

GND

I/O

VCC

I/O

GND

I/O

VCC

I/OE2/GCK2

GCLR/I

OE1/I

I/GCK1

GND

I/GCK3

I/O

VCC

I/O/TCK

I/O

84-Lead PLCC

Top View

I/O

VCC

I/O/TDI

I/O

GND

I/O/PD1

I/O

I/O/TMS

I/O

VCC

I/O

GND

I/O

GND

I/O/TDO

I/O

VCC

I/O

I/O/TCK

I/O

GND

I/O

VCC

I/O

GND

VCC

I/O

I/O/PD2

GND

I/O

VCC

I/O

GND

I/O

VCC

I/OE2/GCK2

I/GCLR

I/OE1

I/GCK1

GND

I/GCK3

I/O

VCC

1/O

I/O

44-Lead TQFP

Top View

I/O/TDI

I/O

GND

PD1/I/O

I/O

TMS/I/O

I/O

VCC

I/O

I/O/TDO

I/O

VCC

I/O

I/O/TCK

I/O

GND

I/O

GND

VCC

I/O

I/O/PD2

I/O

VCC

I/OE2/GCK2

GCLR/I

I/OE1

GCK1/I

GND

GCK3

I/O

ATF1504AS(Z)

100-Lead PQFP

Top View

100-Lead TQFP

Top View

I/O

VCCIO

I/O/TDI

I/O

GND

I/O/PD1

I/O

I/O/TMS

I/O

VCCIO

I/O

GND

I/O

GND

I/O/TDO

I/O

VCCIO

I/O

I/O/TCK

I/O

GND

I/O

VCCIO

100

I/O

VCCIO

I/O

GND

VCCINT

I/O

I/O/PD2

GND

I/O

GND

I/O

VCCINT

INPUT/OE2/GCLK2

INPUT/GCLR

INPUT/OE1

INPUT/GCLK1

GND

I/O/GCLK3

I/O

VCCIO

I/O

VCCIO

I/O/TDI

I/O

GND

I/O/PD1

I/O

I/O/TMS

I/O

VCCIO

I/O

GND

I/O/TDO

I/O

VCCIO

I/O

I/O/TCK

I/O

GND

I/O

VCCIO

GND

I/O

VCCIO

I/O

GND

VCCINT

I/O

I/O/PD2

GND

I/O

GND

I/O

VCCINT

INPUT/OE2/GCLK2

INPUT/GCLR

INPUT/OE1

INPUT/GCLK1

GND

I/O/GCLK3

I/O

VCCIO

I/O

100

ATF1504ASZ

TTL, SSI, MSI, LSI and classic PLDs. The ATF1504AS's
enhanced routing switch matrices increase usable gate
count, and the odds of successful pin-locked design modifi-
cations.

The ATF1504AS has up to 68 bi-directional I/O pins and 4
dedicated input pins, depending on the type of device pack-
age selected. Each dedicated pin can also serve as a glo-
bal control signal; register clock, register reset or output
enable. Each of these control signals can be selected for
use individually within each macrocell.

Each of the 64 macrocells generates a buried feedback,
which goes to the global bus. Each input and I/O pin also
feeds into the global bus. The switch matrix in each logic

block then selects 40 individual signals from the global bus.
Each macrocell also generates a foldback logic term, which
goes to a regional bus. Cascade logic between macrocells
in the ATF1504AS allows fast, efficient generation of com-
plex logic functions. The ATF1504AS contains four such
logic chains, each capable of creating sum term logic with a
fan in of up to 40 product terms.

The ATF1504AS macrocell shown in Figure 1, is flexible
enough to support highly complex logic functions operating
at high speed. The macrocell consists of five sections:
product terms and product term select multiplexer;
OR/XOR/CASCADE logic; a flip-flop; output select and
enable; and logic array inputs.

Block Diagram

Unused product terms are automatically disabled by the
compiler to decrease power consumption. A Security Fuse,
w h e n p r o g r a m m e d , p r o t e c t s t h e c o n t e n t s o f t h e
ATF1504AS. Two bytes (16-bits) of User Signature are
accessible to the user for purposes such as storing project
name, part number, revision or date. The User Signature is
accessible regardless of the state of the Security Fuse.

The ATF1504AS device is an In-System Programmable
(ISP) device. It uses the industry standard 4-pin JTAG
interface (IEEE Std. 1149.1), and is fully compliant with
JTAG's Boundary Scan Description Language (BSDL). ISP
allows the device to be programmed without removing it
from the printed circuit board. In addition to simplifying the
manufacturing flow, ISP also allows design modifications to
be made in the field via software.

ATF1504ASZ

Product Terms and Select MUX
Each ATF1504AS macrocell has five product terms. Each
product term receives as its inputs all signals from both the
global bus and regional bus.

The product term select multiplexer (PTMUX) allocates the
five product terms as needed to the macrocell logic gates
and control signals. The PTMUX programming is deter-
mined by the design compiler, which selects the optimum
macrocell configuration.

OR/XOR/CASCADE Logic
The ATF1504AS's logic structure is designed to efficiently
support all types of logic. Within a single macrocell, all the
product terms can be routed to the OR gate, creating a 5-
input AND/OR sum term. With the addition of the CASIN
from neighboring macrocells, this can be expanded to as
many as 40 product terms with a very small additional
delay.

The macrocell's XOR gate allows efficient implementation
of compare and arithmetic functions. One input to the XOR
comes from the OR sum term. The other XOR input can be
a product term or a fixed high or low level. For combinato-
rial outputs, the fixed level input allows polarity selection.
For registered functions, the fixed levels allow DeMorgan
minimization of product terms. The XOR gate is also used
to emulate T- and JK-type flip-flops.

Flip Flop
The ATF1504AS's flip flop has very flexible data and con-
trol functions. The data input can come from either the XOR
gate, from a separate product term or directly from the I/O
pin. Selecting the separate product term allows creation of
a buried registered feedback within a combinatorial output
macrocell. (This feature is automatically implemented by
the fitter software). In addition to D, T, JK and SR opera-
tion, the flip flop can also be configured as a flow-through
latch. In this mode, data passes through when the clock is
high and is latched when the clock is low.

The clock itself can either be one of the Global CLK Signal
GCK[0 : 2] or an individual product term. The flip flop

changes state on the clock's rising edge. When the GCK
signal is used as the clock, one of the macrocell product
terms can be selected as a clock enable. When the clock
enable function is active and the enable signal (product
term) is low, all clock edges are ignored. The flip flop's
asynchronous reset signal (AR) can be either the Global
Clear (GCLEAR), a product term, or always off. AR can
also be a logic OR of GCLEAR with a product term. The
asynchronous preset (AP) can be a product term or always
off.

Output Select and Enable
The ATF1504AS macrocell output can be selected as reg-
istered or combinatorial. The buried feedback signal can be
either combinatorial or registered signal regardless of
whether the output is combinatorial or registered.

The output enable multiplexer (MOE) controls the output
enable signals. Any buffer can be permanently enabled for
simple output operation. Buffers can also be permanently
disabled to allow use of the pin as an input. In this configu-
ration all the macrocell resources are still available, includ-
ing the buried feedback, expander and CASCADE logic.
The output enable for each macrocell can be selected as
either of the two dedicated OE input pins as an I/O pin con-
figured as an input, or as an individual product term.

Global Bus/Switch Matrix
The global bus contains all input and I/O pin signals as well
as the buried feedback signal from all 64 macrocells. The
Switch Matrix in each Logic Block receives as its inputs all
signals from the global bus. Under software control, up to
40 of these signals can be selected as inputs to the Logic
Block.

Foldback Bus
Each macrocell also generates a foldback product term.
This signal goes to the regional bus and is available to 4
macrocells. The foldback is an inverse polarity of one of the
macrocell's product terms. The 4 foldback terms in each
region allows generation of high fan-in sum terms (up to 9
product terms) with a small additional delay.

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